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Archive for the ‘computing’ category: Page 97

Apr 6, 2024

“What we did here gives me goosebumps. We have shown that error correction is repeatable, it is working, and it is reliable”: Microsoft and Quantinuum scale new heights in quantum computing and error correction

Posted by in categories: computing, quantum physics

Microsoft is on the verge of a major quantum computing breakthrough in collaboration with Quantinuum. In a recent announcement, the tech giant indicated that it ran more than 14,000 experiments without encountering a single error.

The company attributes this to Quantinuum’s ion-trap hardware alongside its new qubit-virtualization system. It unlocked this impressive feat because the system allows the team to check logical qubits, thus presenting an opportunity to correct any errors without affecting the progress.

The researchers behind the breakthrough spread the quantum information across groups of connected quantum bits to form logic qubits. Per the report, the team used 30 qubits to make four logical qubits. It was through this process that the team was able to run countless experiments without encountering any errors.

Apr 6, 2024

Exploring the Brain: from Synapses to Cognition

Posted by in categories: biotech/medical, computing, media & arts, neuroscience

The human brain is a remarkably complex organ, consisting of billions of interconnected neurons. It can be divided into distinct regions, each with specific functions, such as memory and decision-making. Cognition, which includes processes like perception, memory, language, and problem-solving, is all orchestrated by the brain. It’s through these cognitive processes that we perceive and interact with the world around us.

What is special about the structure of the brain compared to other organs? What is the principled way of understanding how the brain works? How does the brain contribute to our sense of Self? Is it possible to compare the brain with the computer? Is it possible to enhance the way that the brain works? What is the brain-basis of language?

Continue reading “Exploring the Brain: from Synapses to Cognition” »

Apr 6, 2024

Merons Magic: Unlocking the Secrets of Synthetic Antiferromagnets

Posted by in categories: computing, particle physics, sustainability

Our everyday electronic devices, such as living room lights, washing machines, and televisions, operate thanks to electrical currents. Similarly, the functioning of computers is based on the manipulation of information by small charge carriers known as electrons. Spintronics, on the other hand, introduces a unique approach to this process.

Instead of the charge of electrons, the spintronic approach is to exploit their magnetic moment, in other words, their spin, to store and process information – aiming to make the computers of the future more compact, fast, and sustainable. One way of processing information based on this approach is to use the magnetic vortices called skyrmions or, alternatively, their still little understood and rarer cousins called ‘merons’. Both are collective topological structures formed of numerous individual spins. Merons have to date only been observed in natural antiferromagnets, where they are difficult to both analyze and manipulate.

Apr 4, 2024

Making Sense of Handedness on a Lattice

Posted by in categories: computing, particle physics

David Kaplan has developed a lattice model for particles that are left-or right-handed, offering a firmer foundation for the theory of weak interactions.

David Kaplan is on a quest to straighten out chirality, or “handedness,” in particle physics. A theorist at the University of Washington, Seattle, Kaplan has been wrestling with chirality conundrums for over 30 years. The main problem he has been working on is how to place chiral particles, such as left-handed electrons or right-handed antineutrinos, on a discrete space-time, or “lattice.” That may sound like a minor concern, but without a solution to this problem the weak interaction—and by extension the standard model of particle physics—can’t be simulated on a computer beyond low-energy approximations. Attempts to develop a lattice theory for chiral particles have run into model-dooming inconsistencies. There’s even a well-known theorem that says the whole endeavor should be impossible.

Kaplan is unfazed. He has been a pioneer in formulating chirality’s place in particle physics. One of his main contributions has been to show that some of chirality’s problems can be solved in extra dimensions. Kaplan has now taken this extra-dimension strategy further, showing that reducing the boundaries, or edges, around the extra dimensions can help keep left-and right-handed particle states from mixing [1, 2]. With further work, he believes this breakthrough could finally make the lattice “safe” for chiral particles. Physics Magazine spoke to Kaplan about the issues surrounding chirality in particle physics.

Apr 4, 2024

Error-corrected qubits 800 times more reliable after breakthrough, paving the way for ‘next level’ of quantum computing

Posted by in categories: computing, quantum physics

Scientists used a technique called ‘active syndrome extraction’ to build four logical qubits from 30 physical ones and run 14,000 experiments without detecting a single error.

Apr 4, 2024

Joscha Bach — Consciousness as a coherence-inducing operator

Posted by in categories: biological, computing, information science, law, neuroscience

A theory of consciousness should capture its phenomenology, characterize its ontological status and extent, explain its causal structure and genesis, and describe its function. Here, I advance the notion that consciousness is best understood as an operator, in the sense of a physically implemented transition function that is acting on a representational substrate and controls its temporal evolution, and as such has no identity as an object or thing, but (like software running on a digital computer) it can be characterized as a law. Starting from the observation that biological information processing in multicellular substrates is based on self organization, I explore the conjecture that the functionality of consciousness represents the simplest algorithm that is discoverable by such substrates, and can impose function approximation via increasing representational coherence. I describe some properties of this operator, both with the goal of recovering the phenomenology of consciousness, and to get closer to a specification that would allow recreating it in computational simulations.

Apr 4, 2024

Holographic Breakthrough: Scientists Create Full-Color 3D Holographic Displays with Ordinary Smartphone Screen

Posted by in categories: computing, holograms, information science, military, mobile phones

In science fiction, holograms are used for anything from basic communications to advanced military weaponry. In the real world, 3D holographic displays have yet to break through to everyday products and devices. That’s because creating holograms that look real and have significant fidelity requires laser emitters or other advanced pieces of optical equipment. This situation has stymied commercial development, as these components are complex and expensive.

More recently, research scientists were able to create realistic 3D holographic images without lasers by using a white chip-on-board light-emitting diode. Unfortunately, that method required two spatial light modulators to control the wave fronts of the emitted light, adding a prohibitive amount of complexity and cost.

Now, those same scientists say they have created a simpler, more cost-effective way to create realistic-looking 3D holographic displays using only one spatial light modulator and new software algorithms. The result is a simpler and cheaper method for creating holograms that an everyday technology like a smartphone screen can emit.

Apr 4, 2024

Securing Minerals for the Energy Transition

Posted by in category: computing

From twenty old computer motherboards, it recovered a 450-milligram nugget.

Learn more about the role of critical minerals in the World Economic Forum’s report:

Mint ETH Zürich

Continue reading “Securing Minerals for the Energy Transition” »

Apr 4, 2024

Can Data be Stored in DNA?

Posted by in categories: biotech/medical, computing, health

This post is also available in: he עברית (Hebrew)

Analyzing and storing large amounts of data requires a lot of energy, so the future of technology might hold a different approach to data storage. At least, that is what Professor Søren Brunak from the University of Copenhagen thinks.

Brunak states that while Denmark is one of the best in the world at health data, analyzing and storing huge amounts of health data comes at a climate cost. “We have begun to consider the carbon footprint of bioinformatics and CO2 emissions resulting from data analysis,” he adds.

Apr 3, 2024

Transmitting entanglement between light and matter in the metropolitan network of Barcelona

Posted by in categories: computing, internet, quantum physics

As the efforts towards the realization of powerful quantum computers and quantum simulators continue, there is a parallel program aimed at attaining the quantum analog to the classical internet.

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